Gravitational waves from primordial black hole isocurvature: the effect of non-Gaussianities

arXiv - PHYS - General Relativity and Quantum Cosmology Pub Date : 2024-09-17 DOI:arxiv-2409.11333

Xin-Chen He, Yi-Fu Cai, Xiao-Han Ma, Theodoros Papanikolaou, Emmanuel N. Saridakis, Misao Sasaki

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Abstract

Ultra-light primordial black holes (PBHs) with masses $M_{\rm PBH}<5\times 10^8\mathrm{g}$ can dominate transiently the energy budget of the Universe and reheat the Universe through their evaporation taking place before Big Bang Nucleosynthesis. The isocurvature energy density fluctuations associated to the inhomogeneous distribution of a population of such PBHs can induce an abundant production of GWs due to second-order gravitational effects. In this work, we discuss the effect of primordial non-Gaussianity on the clustering properties of PBHs and study the effect of a clustered PBH population on the spectral shape of the aforementioned induced GW signal. In particular, focusing on local-type non-Gaussianity we find a double-peaked GW signal with the amplitude of the low-frequency peak being proportional to the square of the non-Gaussian parameter $\tau_\mathrm{NL}$. Remarkably, depending on the PBH mass $M_{\rm PBH}$ and the initial abundance of PBHs at formation time, i.e. $\Omega_\mathrm{PBH,f}$, this double-peaked GW signal can lie well within the frequency bands of forthcoming GW detectors, namely LISA, ET, SKA and BBO, hence rendering this signal falsifiable by GW experiments and promoting it as a novel portal probing the primordial non-Gaussianity.

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来自原始黑洞等曲率的引力波：非高斯性的影响

质量为$M_{/rm PBH}<5/times10^8/mathrm{g}$的超轻原始黑洞（PBHs）可以瞬时支配宇宙的能量预算，并通过它们在大爆炸核合成之前发生的蒸发来加热宇宙。由于二阶引力效应，等曲率能量密度波动会诱发GW的大量产生。在这项工作中，我们讨论了原始非高斯性对 PBH 聚类特性的影响，并研究了聚类 PBH 群体对上述诱导 GW 信号光谱形状的影响。特别是，针对局部型非高斯性，我们发现了一个双峰GW信号，其低频峰的振幅与非高斯参数$tau_\mathrm{NL}$的平方成正比。值得注意的是，根据PBH质量$M_{\rmPBH}$和PBH形成时的初始丰度，即$\Omega_\mathrm{PBH,f}$，这个双峰GW信号可以位于即将到来的GW探测器，即LISA、ET、SKA和BBO的频带内，从而使这个信号可以被GW实验证伪，并将其作为探测原始非高斯性的一个新的入口。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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arXiv - PHYS - General Relativity and Quantum Cosmology

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